CN113682816B - A conveyor opens and shuts for glass - Google Patents

Abstract

The invention discloses an opening and closing conveying device for glass, which relates to the technical field of glass deep processing and comprises a bottom frame component, a belt conveying component and a lifting component, wherein the bottom frame component comprises a bottom frame, a first hinged support arranged at the upper end of one side of the bottom frame, and a plurality of stop blocks arranged at the upper end of the bottom frame, one end of the belt conveying component is connected with the first hinged support, one end of the belt conveying component is provided with a plurality of abutting parts, each abutting part is opposite to one stop block, the bottom frame is provided with the lifting component, the lifting component is connected with the bottom frame and the belt conveying component and is used for controlling the lifting or the descending of the belt conveying component, and when the belt conveying component is lifted to a limit position, the abutting parts are abutted against the stop blocks. The belt conveying part in the whole opening and closing conveying device realizes safety interlocking in the ascending and descending processes, so that the belt conveying part can be rapidly stopped at the corresponding position even if special conditions such as power failure, gas failure and the like occur, and safety accidents are avoided.

Description

A conveyor opens and shuts for glass

Technical Field

The invention relates to the technical field of glass deep processing, in particular to an opening and closing conveying device for glass.

Background

In the technical field of glass deep processing, materials are often transported across lines or overhauled. Therefore, a channel for forklift operation needs to be reserved rapidly on a deep processing production line. At present, a roller way device capable of being opened and closed rapidly on a production line basically adopts a part of roller ways to turn downwards to reserve a channel, but because the roller ways are limited by elevation of the roller ways, the opening and closing distance between the roller ways is very limited, and a forklift is inconvenient to enter and exit.

Aiming at the problems that material is conveyed or overhauled by a cross line on a glass deep processing production line, quick opening and closing are needed to be realized, and a wide channel is reserved, the invention aims to provide an opening and closing conveying device for realizing quick lifting and falling, and enough channels are reserved, so that the material is conveyed by the cross line and overhauled conveniently. The belt conveying part in the whole opening and closing conveying device realizes safety interlocking in the ascending and descending processes, so that the belt conveying part can be rapidly stopped at the corresponding position even if special conditions such as power failure, gas failure and the like occur, and safety accidents are avoided.

Disclosure of Invention

The invention aims to provide an opening and closing conveying device for glass, which is used for solving the technical problems.

The technical scheme adopted by the invention is as follows:

the utility model provides a conveyor opens and shuts for glass, includes bottom frame part, belt conveying part and elevating part, bottom frame subassembly includes the underframe, locates the first articulated support of underframe one side upper end, and locate a plurality of dogs of underframe's upper end, belt conveying part rotationally locates the upside of underframe, just belt conveying part's one end with first articulated support connection, belt conveying part's one end is equipped with a plurality of butt portions, each butt portion respectively with one the dog is right mutually, be equipped with on the underframe elevating part, elevating part connects the underframe with belt conveying part is used for control belt conveying part lifting or decline, works as when belt conveying part lifts to extreme position, butt portion with the dog offsets.

Preferably, the bottom frame part further comprises adjustable feet and adjustable supporting blocks, wherein a plurality of the adjustable feet are arranged at the lower end of the bottom frame, a plurality of the adjustable supporting blocks are arranged at the upper end of the other side of the bottom frame, and the upper ends of the adjustable supporting blocks are propped against the lower end of the belt conveying part.

Preferably, the belt conveying component comprises a first bracket, a belt supporting frame, a belt assembly, a transmission shaft and a transmission motor, wherein one end of the belt supporting frame is connected with the first hinge bracket, a plurality of first brackets are arranged at the upper end of the belt supporting frame, the belt assembly is connected with the belt supporting frame through a plurality of first brackets, the transmission shaft is further arranged at the upper end of the belt supporting frame, the transmission shaft is connected with one end of the belt assembly, one side of the belt supporting frame is provided with the transmission motor, and the transmission motor is in transmission connection with the transmission shaft.

As a further preferable aspect, the belt support frame further comprises a second hinge bracket, and the lower end of the belt support frame is provided with the second hinge bracket.

As a further preference, the belt support frame further comprises foldable support legs, and the bottom of the other end of the belt support frame is provided with a plurality of the foldable support legs.

As a further preferable mode, the folding leg comprises a rubber head nut, and at least two rubber head nuts are respectively arranged on each folding leg.

As a further preferred aspect, the lifting component includes a holding cylinder, a second bracket, and a control assembly disposed on the second bracket, the second bracket is disposed on one side of the bottom frame, the holding cylinder is disposed on an inner side of the bottom frame, one end of the holding cylinder is connected with the second hinge bracket, and the other end of the holding cylinder is connected with the bottom frame.

As a further preferred mode, the control assembly comprises a pressure regulating valve, a five-port three-position electromagnetic valve and a three-port two-position electromagnetic valve, the air source mechanism is connected with the second pipeline through a first pipeline, two ends of the second pipeline are connected with the five-port three-position electromagnetic valve and the three-port two-position electromagnetic valve, the pressure regulating valve is arranged on the first pipeline, a first air cylinder port on the five-port three-position electromagnetic valve is connected with the enclasping air cylinder through a third pipeline, a second air cylinder port on the five-port three-position electromagnetic valve is connected with the enclasping air cylinder through a fourth pipeline, and an air cylinder port on the three-port two-position electromagnetic valve is connected with the enclasping air cylinder through a fifth pipeline.

As a further preferable aspect, the hydraulic pump further comprises a one-way throttle valve, and at least one-way throttle valve is respectively arranged on the third pipeline and the fourth pipeline.

As a further preferable mode, the device further comprises an auxiliary pressure regulating valve, and the auxiliary pressure regulating valve is further arranged on the third pipeline.

The technical scheme has the following advantages or beneficial effects:

in the invention, the adjustable foot installation part in the opening and closing conveying device is designed into a long slot hole, so that the height of the adjustable foot installation part in the vertical direction can be adjusted, and the adjustable foot installation part is suitable for different ground height differences; the lifting of the belt conveying component adopts the synchronous action of double cylinders with the enclasping function, so that stable opening and closing can be realized; the front part of the belt conveying component is provided with the foldable supporting legs, so that the belt conveying component can be folded rapidly according to the opening and closing requirements, and the glass is conveyed stably at a high speed under the horizontal state of the belt conveying component, so that shaking is not easy to occur; through coordinated control, safety interlocking is realized in the ascending and descending processes of belt conveying components in the whole opening and closing conveying device, so that the belt conveying components can be rapidly stopped at corresponding positions even if special conditions such as power failure, gas failure and the like occur, and safety accidents are avoided.

Drawings

FIG. 1 is a schematic view showing a structure of an open-close conveying device for glass in a closed state in the present invention;

FIG. 2 is a schematic view showing the structure of the open-close conveying device for glass in an open state in the present invention;

FIG. 3 is a front view of an open/close conveyor for glass in the present invention;

FIG. 4 is a side view of an open-close conveyor for glass in the present invention;

FIG. 5 is a schematic illustration of the connection between the control assembly and the hugging cylinder in the present invention;

fig. 6 is an enlarged view at a in fig. 4.

In the figure: 1. a bottom frame member; 101. a bottom frame; 102. a first hinge bracket; 103. a stop block; 104. a first frame; 105. a column; 106. a first cross beam; 107. an adjustable foot margin; 108. an adjustable support block; 2. a belt conveying member; 201. an abutting portion; 202. a first bracket; 203. a belt support frame; 204. a belt assembly; 205. a transmission shaft; 206. a drive motor; 207. a bottom plate; 208. a wing plate; 209. a sleeve; 210. a pin shaft; 211. a connecting block; 212. a shaft end baffle; 213. a foldable leg; 214. a rubber head nut; 3. a lifting member; 301. a holding cylinder; 302. a second bracket; 303. a control assembly; 304. a pressure regulating valve; 305. five-port three-position electromagnetic valve; 306. three-port two-position electromagnetic valve; 307. an air source mechanism; 308. a first pipeline; 309. a second pipeline; 310. a third pipeline; 311. a fourth pipeline; 312. a fifth pipeline; 313. a one-way throttle valve; 314. a reverse pressure regulating valve is attached; 315. a ball valve; 316. a muffler.

Detailed Description

The following description of the embodiments of the present invention will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the invention are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that, if terms such as "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like are used, the indicated orientation or positional relationship is based on the orientation or positional relationship shown in the drawings, only for convenience of describing the present invention and simplifying the description, and does not indicate or imply that the indicated apparatus or element must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like, as used herein, are used for descriptive purposes only and are not to be construed as indicating or implying any relative importance.

In the description of the present invention, it should be noted that unless explicitly stated and limited otherwise, the terms "mounted," "connected," and "connected" should be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

FIG. 1 is a schematic view showing a structure of an open-close conveying device for glass in a closed state in the present invention;

FIG. 2 is a schematic view showing the structure of the open-close conveying device for glass in an open state in the present invention; FIG. 3 is a front view of an open/close conveyor for glass in the present invention; FIG. 4 is a side view of an open-close conveyor for glass in the present invention; FIG. 5 is a schematic illustration of the connection between the control assembly and the hugging cylinder in the present invention; fig. 6 is an enlarged view of a portion a in fig. 4, referring to fig. 1 to 6, a preferred embodiment of an open-close conveying device for glass is shown, which includes a bottom frame member 1, a belt conveying member 2 and a lifting member 3, wherein the bottom frame member includes a bottom frame 101, a first hinge bracket 102 provided at an upper end of one side of the bottom frame 101, and a plurality of stoppers 103 provided at an upper end of the bottom frame 101, the belt conveying member 2 is rotatably provided at an upper side of the bottom frame 101, one end of the belt conveying member 2 is connected to the first hinge bracket 102, one end of the belt conveying member 2 is provided with a plurality of abutments 201, each abutment 201 is respectively opposite to one stopper 103, the bottom frame 101 is provided with a lifting member 3, and the lifting member 3 connects the bottom frame 101 and the belt conveying member 2 for controlling the belt conveying member 2 to be lifted or lowered, and when the belt conveying member 2 is lifted to a limit position, the abutments 201 are abutted against the stoppers 103. In this embodiment, as shown in fig. 1, the bottom frame 101 includes a first frame 104 with a rectangular bottom and four columns 105 disposed at four angles on the upper end of the first frame 104, wherein a first beam 106 is disposed between two columns 105 disposed on one side of the first frame 104, and first hinge brackets 102 are disposed on the upper ends of the two first frames 104, and the stop block 103 is disposed on the first beam 106. The belt conveying part 2 is connected with the first hinge bracket 102, and is connected with the bottom frame 101 through the first hinge bracket 102, so that the belt conveying part 2 can rotate. The stopper 103 is opposite to the abutting portion 201, and is used for limiting the lifting angle of the belt conveying component 2 and preventing the belt conveying component 2 from being lifted too high.

Further, as a preferred embodiment, the bottom frame member 1 further includes an adjustable anchor 107 and an adjustable supporting block 108, the lower end of the bottom frame 101 is provided with a plurality of adjustable anchors 107, the upper end of the other side of the bottom frame 101 is provided with a plurality of adjustable supporting blocks 108, and the upper ends of the plurality of adjustable supporting blocks 108 are abutted against the lower end of the belt conveying member 2. In this embodiment, as shown in fig. 1, an adjustable anchor 107 is connected to a first frame 104, a chute is disposed at a position on the adjustable anchor 107 opposite to the first frame 104, a bolt is disposed in the chute, the bolt is used to connect the adjustable anchor 107 to the first frame 104, and the bolt can slide in the chute, so as to facilitate the adjustment of the height of the bottom frame 101 in the vertical direction. The adjustable supporting block 108 includes a connection plate fixed to the lower end of the belt supporting frame 203 in the belt conveying member 2, and a screw provided at the lower end of the connection plate, one end of which is rotatably connected to the connection plate and the other end of which is screw-connected to the two upright posts 105 at the upper end of the other side of the first frame 104. Through rotatory screw rod for screw rod precess or unscrew stand 105 realizes the adjustment of belt braced frame 203 height, is convenient for adjust belt braced frame 203's roughness, makes high-speed steady conveying glass, is difficult for appearing the shake phenomenon.

Further, as a preferred embodiment, the belt conveying component 2 includes a first bracket 202, a belt supporting frame 203, a belt assembly 204, a transmission shaft 205 and a transmission motor 206, one end of the belt supporting frame 203 is connected with the first hinged bracket 102, the upper end of the belt supporting frame 203 is provided with a plurality of first brackets 202, the belt assembly 204 is connected with the belt supporting frame 203 through a plurality of first brackets 202, the upper end of the belt supporting frame 203 is further provided with the transmission shaft 205, the transmission shaft 205 is connected with one end of a plurality of belt assemblies 204, one side of the belt supporting frame 203 is provided with the transmission motor 206, and the transmission motor 206 is in transmission connection with the transmission shaft 205. In this embodiment, as shown in fig. 1, the belt supporting frame 203 is installed at the upper end of the bottom frame member 1 and is connected to the first hinge bracket 102, and lifting or lowering of the belt supporting frame 203 can be achieved under the action of the first hinge bracket 102, where lifting or lowering of the belt supporting frame 203 can drive the belt assembly 204 thereon to lift or lower. In this embodiment, as shown in fig. 1, a plurality of belt assemblies 204 are provided, two ends of each belt assembly 204 are fixed by two first brackets 202, a plurality of belt assemblies 204 are arranged side by side, a transmission shaft 205 is arranged at one end of the plurality of belt assemblies 204 near the bottom frame 101 in a penetrating manner, a transmission motor 206 is used for driving the transmission shaft 205 to rotate, and the transmission shaft 205 drives the belt assemblies 204 to rotate when rotating.

The first hinge bracket 102 in this embodiment includes a bottom plate 207, two wing plates 208 disposed on the bottom plate 207, and a sleeve 209 disposed between the two wing plates 208, wherein a pin 210 is disposed in the sleeve 209, two ends of the pin 210 are connected with the two wing plates 208, so as to fix the pin 210, wherein the sleeve 209 can rotate relative to the pin 210, and a connection block 211 is disposed on an outer sidewall of the sleeve 209 and is used for being connected and fixed with the belt support frame 203. Shaft end baffles 212 are arranged on the outer side walls of the two wing plates 208, and the shaft end baffles 212 are fixed on the wing plates 208 through screws and abut against the end parts of the pin shafts 210 to prevent the pin shafts 210 from rotating. And the bottom plate 207 is connected to the upright 105 by screws.

Further, as a preferred embodiment, the belt support frame 203 further includes a second hinge bracket provided at a lower end thereof. In this embodiment, the second hinge bracket is fixed to the lower end of the belt supporting frame 203 by a screw.

Further, as a preferred embodiment, the belt support frame further comprises a foldable support leg 213, and the bottom of the other end of the belt support frame 203 is provided with a plurality of foldable support legs 213. In this embodiment, the foldable leg 213 may rotate at 90 °, one end of the foldable leg 213 is connected to the bottom of the other end of the belt supporting frame 203, and the foldable leg 213 may rotate around one end thereof.

Further, as a preferred embodiment, the foldable support leg further comprises at least two rubber head nuts 214, and each foldable support leg 213 is provided with at least two rubber head nuts 214. The foldable support leg 213 in this embodiment is provided with a mounting hole for mounting the rubber head nut 214, when the foldable support leg 213 rotates 90 °, the side wall of the foldable support leg 213 abuts against the lower surface of the belt support frame 203, the lower surface of the belt support frame 203 is provided with a fixing hole corresponding to the rubber head nut 214, and then the rubber head nut 214 is rotated to connect and fix the foldable support leg 213 with the lower surface of the belt support frame 203. The foldable support leg 213 that sets up in this embodiment can realize folding fast according to the demand that opens and shuts, guarantees under belt conveyor part 2 horizontal state, high-speed steady conveying glass, is difficult for appearing the shake.

Further, as a preferred embodiment, the lifting component 3 includes a holding cylinder 301, a second bracket 302, and a control unit 303 disposed on the second bracket 302, where the second bracket 302 is disposed on one side of the bottom frame 101, the holding cylinder 301 is disposed on an inner side of the bottom frame 101, and one end of the holding cylinder 301 is connected to the second hinge bracket, and the other end of the holding cylinder 301 is connected to the bottom frame 101. One end of the enclasping cylinder 301 in this embodiment is connected with the second hinge bracket, so that one end of the enclasping cylinder 301 can rotate relative to the belt supporting frame 203, while the other end of the enclasping cylinder 301 is movably connected with the first frame 104 in the bottom frame 101, so as to avoid affecting the lifting of the belt supporting frame 203. And the control unit 303 is used for controlling the lifting and lowering actions of the hugging cylinder 301.

Further, as a preferred embodiment, the control unit 303 includes a pressure regulating valve 304, a five-port three-position electromagnetic valve 305, and a three-port two-position electromagnetic valve 306, the air source mechanism 307 is connected to the second pipeline 309 through a first pipeline 308, two ends of the second pipeline 309 are connected to the five-port three-position electromagnetic valve 305 and the three-port two-position electromagnetic valve 306, the pressure regulating valve 304 is disposed on the first pipeline 308, a first air cylinder port on the five-port three-position electromagnetic valve 305 is connected to the holding cylinder 301 through a third pipeline 310, a second air cylinder port on the five-port three-position electromagnetic valve 305 is connected to the holding cylinder 301 through a fourth pipeline 311, and an air cylinder port on the three-port two-position electromagnetic valve 306 is connected to the holding cylinder 301 through a fifth pipeline 312. In this embodiment, as shown in fig. 5, the first pipeline 308 is used to connect with an external air source mechanism 307, such as a compressor. When the compressed air provided by the air source mechanism 307 enters the first pipeline 308, the compressed air with stable pressure is formed after the effect of the pressure regulating valve 304, the compressed air enters the second pipeline 309 and then enters the third pipeline 310, the fourth pipeline 311 and the fifth pipeline 312, wherein the compressed air of the fourth pipeline 311 is used for driving the cylinder rod of the hugging cylinder 301 to extend, and the compressed air of the third pipeline 310 is used for driving the cylinder rod of the hugging cylinder 301 to shrink.

Further, as a preferred embodiment, the device further comprises a one-way throttle valve 313, and at least one-way throttle valve 313 is respectively arranged on the third pipeline 310 and the fourth pipeline 311. In the present embodiment, the provision of the one-way throttle valve 313 can prevent the backflow of the compressed air in the third and fourth pipes 310 and 311.

Further, as a preferred embodiment, the valve further includes an additional pressure regulating valve 314304, and the third pipeline 310 is further provided with an additional pressure regulating valve 314304.

The foregoing is merely a preferred embodiment of the present application, and is not intended to limit the embodiments and the protection scope of the present application.

The present application further has the following preferred implementation manner based on the preferred embodiment described above:

further, as a preferred embodiment, the valve body further comprises a ball valve 315, wherein the ball valve 315 is disposed on the first pipeline 308, and the ball valve 315 is located on a side of the pressure regulating valve 304 away from the second pipeline 309, for controlling the opening and closing of the first pipeline 308.

Further, as a preferred embodiment, the air-conditioning system further comprises a silencer, wherein the air outlet of the five-port three-position electromagnetic valve 305 and the air outlet of the three-port two-position electromagnetic valve 306 are respectively provided with the silencer, so that noise generated when the five-port three-position electromagnetic valve 305 and the three-port two-position electromagnetic valve 306 are exhausted can be reduced conveniently.

The preferred method of use of the invention is described below:

when the belt conveying component 2 is required to be lifted by the enclasping cylinder 301, the first button is used for controlling the enclasping cylinder 301 in the left opening and closing conveying device and the second button is used for controlling the enclasping cylinder 301 in the right opening and closing conveying device by pressing the first button and the second button in the directions shown in fig. 3, and the first button and the second button cannot be loosened when being pressed.

When the first button and the second button are pressed, the three-port two-position electromagnetic valve 306 is instantly electrified, the cylinder port in the three-port two-position electromagnetic valve 306 is conducted, after the time delay is 1S, the left side of the five-port three-position electromagnetic valve 305 is electrified, the second cylinder port in the five-port three-position electromagnetic valve 305 is conducted, the rear side of the two holding cylinders 301 is inflated, and the holding cylinders 301 drive the belt conveying part 2 to ascend.

A sensor is arranged at the limit position of the front end of the holding cylinder 301 to sense, and the sensor is lifted to be in place; the left side of the five-port three-position electromagnetic valve 305 is powered off in a time delay mode of 1S, the left sides of the three-port two-position electromagnetic valve 306 and the five-port three-position electromagnetic valve 305 are powered off simultaneously, the enclasping cylinder 301 enclasps tightly, the belt conveying part 2 is lifted to a set position, a channel is reserved, and manual work and forklift passing are facilitated.

When the opening and closing channel is needed to be closed, the first button and the second button are manually pressed, so that the opening and closing channel cannot be loosened; the three-port two-position electromagnetic valve 306 is powered on immediately, the cylinder port of the three-port two-position electromagnetic valve 306 is conducted, after the time delay is 1S, the right side of the five-port three-position electromagnetic valve 305 is powered on, the first cylinder port on the five-port three-position electromagnetic valve 305 is conducted, the front sides of the two holding cylinders 301 are used for air intake, and the holding cylinders 301 drive the belt conveying part 2 to descend;

the extreme position of the rear end of the holding cylinder 301 is provided with a sensor for sensing, after the belt conveying part 2 falls down to a set position, the right side of the five-port three-position electromagnetic valve 305 is powered off in a time delay mode for 1S, the right side of the three-port two-position electromagnetic valve 306 and the right side of the five-port three-position electromagnetic valve 305 are powered off simultaneously, the holding cylinder 301 holds tightly, and glass conveying is facilitated.

In summary, the installation position of the adjustable foot 107 of the opening and closing conveying device is designed into a long slot, so that the height of the adjustable foot 107 along the vertical direction can be adjusted, and the adjustable foot is suitable for different ground height differences; the lifting of the belt conveying part 2 adopts the synchronous action of double cylinders with the enclasping function, so that stable opening and closing can be realized; the front part of the belt is provided with the foldable supporting legs 213, so that the belt can be folded quickly according to the opening and closing requirements, and the glass is conveyed at a high speed and stably under the horizontal state of the belt conveying part 2, so that shaking is not easy to occur; according to the technological requirements, when materials are required to be transported or overhauled by a cross line on a glass deep processing production line, the glass deep processing production line is required to be opened and closed rapidly, and a wide channel can be reserved through linkage control; the belt conveying part 2 in the whole opening and closing conveying device realizes safety interlocking in the ascending and descending processes, so that the belt conveying part 2 can be rapidly stopped at the corresponding position even if special conditions such as power failure, gas failure and the like occur, and safety accidents are avoided.

The foregoing description is only illustrative of the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, and it will be appreciated by those skilled in the art that equivalent substitutions and obvious variations may be made using the description and illustrations of the present invention, and are intended to be included within the scope of the present invention.

Claims (6)

1. The device for opening and closing the glass is characterized by comprising a bottom frame part, a belt conveying part and a lifting part, wherein the bottom frame part comprises a bottom frame, a first hinged support arranged at the upper end of one side of the bottom frame, and a plurality of stop blocks arranged at the upper end of the bottom frame, the belt conveying part is rotatably arranged at the upper side of the bottom frame, one end of the belt conveying part is connected with the first hinged support, one end of the belt conveying part is provided with a plurality of abutting parts, each abutting part is opposite to one stop block, the lifting part is arranged on the bottom frame, the lifting part is connected with the bottom frame and the belt conveying part and is used for controlling the belt conveying part to lift or descend, when the belt conveying part is lifted to a limit position, the abutting part abuts against the stop block, the belt conveying part comprises a first bracket, a belt supporting frame, a belt assembly, a transmission shaft and a transmission motor, one end of the belt supporting frame is connected with the first hinged bracket, the upper end of the belt supporting frame is provided with a plurality of first brackets, the belt assembly is connected with the belt supporting frame through a plurality of first brackets, the upper end of the belt supporting frame is also provided with the transmission shaft, the transmission shaft is connected with one end of a plurality of belt assemblies, one side of the belt supporting frame is provided with the transmission motor, the transmission motor is in transmission connection with the transmission shaft, the belt conveying part also comprises a foldable supporting leg, the bottom of the other end of the belt supporting frame is provided with a plurality of foldable supporting legs, the belt conveying part also comprises a rubber head nut, at least two rubber head nuts are respectively arranged on each foldable supporting leg;

the bottom frame part further comprises adjustable feet and adjustable supporting blocks, wherein a plurality of the adjustable feet are arranged at the lower end of the bottom frame, a plurality of the adjustable supporting blocks are arranged at the upper end of the other side of the bottom frame, and the upper ends of the adjustable supporting blocks are propped against the lower end of the belt conveying part.

2. The open-close conveyance device for glass according to claim 1, further comprising a second hinge bracket provided at a lower end of the belt support frame.

3. The apparatus according to claim 2, wherein the lifting member comprises a holding cylinder, a second bracket, and a control assembly provided on the second bracket, the second bracket is provided on one side of the bottom frame, the holding cylinder is provided on an inner side of the bottom frame, one end of the holding cylinder is connected to the second hinge bracket, and the other end of the holding cylinder is connected to the bottom frame.

4. The glass opening and closing conveying device according to claim 3, wherein the control assembly comprises a pressure regulating valve, a five-port three-position electromagnetic valve and a three-port two-position electromagnetic valve, the air source mechanism is connected with the second pipeline through a first pipeline, two ends of the second pipeline are connected with the five-port three-position electromagnetic valve and the three-port two-position electromagnetic valve, the pressure regulating valve is arranged on the first pipeline, a first air cylinder port on the five-port three-position electromagnetic valve is connected with the holding cylinder through a third pipeline, a second air cylinder port on the five-port three-position electromagnetic valve is connected with the holding cylinder through a fourth pipeline, and an air cylinder port on the three-port two-position electromagnetic valve is connected with the holding cylinder through a fifth pipeline.

5. The glass open-close conveying device according to claim 4, further comprising a one-way throttle valve, wherein at least one-way throttle valve is provided on each of the third pipe and the fourth pipe.

6. The glass open-close conveying device according to claim 4, further comprising an additional pressure regulating valve, wherein the additional pressure regulating valve is further provided on the third pipe.

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